为开展真空紫外辐射及真空紫外线与其它空间环境复合效应的地面模拟实验,研制了真空辐照模拟设备。
We developed the ground VUV simulation facility for the research of vacuum ultraviolet irradiation and the compound effect of vacuum ultraviolet radiation with other space environments.
造成高脱色率的因素不是紫外线杀菌灯产生的臭氧,可能是紫外线杀菌灯产生的真空紫外线对甲基橙作用的结果。
It indicated that the higher decolorization efficiency probably not due to ozone produced by UV lamp but vacuum UV rays from UV lamp.
采用流体模型研究了一种五电极交流等离子体显示板(ACPDP)的单点触发放电过程及其真空紫外线(VUV)的辐射特性。
The triggering discharges and the vacuum ultra-violet (VUV) radiation of the five-electrode alternating current plasma display panel (AC PDP) were investigated by fluid model simulations.
采用扩散泵和机械泵作高真空抽气系统组成模拟系统,以达到地外紫外线辐照条件。
To reach the qualification of outer space ultraviolet irradiation, we adopted the diffuse pump and mechanic pump as the high vacuumizing unit.
其中高阶谐振的产生,由于可以作为产生真空远紫外线和软X射线的可能途径,受到人们的极大关注。
The most attractive one is high order harmonic generation (HHG), which can be used as a source of extreme ultraviolet (XUV) and soft X-ray lasers.
将大气释放在空气中,将系统抽成真空,保持30分钟来去除所有水分。现在在系统中加入制冷剂,并加入3-10毫升的紫外线着色剂。
Vent the nitrogen to atmosphere and vacuum the system for 30 minutes to remove any moisture. Now charge the system with refrigerant and introduce 5-10ml of UV dye.
将大气释放在空气中,将系统抽成真空,保持30分钟来去除所有水分。现在在系统中加入制冷剂,并加入3-10毫升的紫外线着色剂。
Vent the nitrogen to atmosphere and vacuum the system for 30 minutes to remove any moisture. Now charge the system with refrigerant and introduce 5-10ml of UV dye.
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